Students indicated with italics. Students for whom I am the primary advisor indicated with an ‘*’.
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Drafted (for 2024 submission):
1. Kulmatiski, A., Forero, LE.*, Sandfort, R*. Plant soil feedbacks accumulate across life stages. Journal of Ecology.
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2. Grenzer J*, Kulmatiski A, Forero LE*, Ebeling A, Eisenhauer N, Norton J. Plant soil feedbacks help explain plant diversity effects on productivity. Plant and Soil.
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In Review or revision:
3. Kulmatiski, A. Water matching: An explanation for plant growth and coexistence in water-limited systems. Discover soil.
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4. Forero LE*, Kulmatiski A. Linking vertical resource uptake to plant growth and landscape abundance. Plant and Soil.
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5. Smith, M. et al. Aridity drives the response of sol particulate and mineral-associated organic carbon to drought worldwide. Nature Communications.
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6. Worthy, SJ., Luoing, J.C., Wainwritght, BE., Barcu A., Elwood, EC., Gujral, AK., IDE contributors, ECL, Phillips, RP., Funk, J. Functional group mediates the role of traits in short-term drought response: A global study on herbaceous species. Nature Ecology and Evolution.
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7. Kulmatiski A., Ozturk, M.*, Duniway, M.C., Bladen, K., and Brahney, J. Factors determining wind erosion in Southern Utah. Plos One.:
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2024
8. Smith, M.E., et al. Extreme drought impacts have been underestimated in grasslands and shrublands globally. Proceedings of the National Academy of Sciences.
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2023
9. Kulmatiski, A., Holdrege, M.C.*, Chirvasa, C*., Beard, K.H. Root distributions predict shrub-steppe responses to precipitation intensity. Biogeochemistry Discussions.
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10. Aaronson, J.* Kulmatiski A., Norton, J. What do differences in microbial community composition tell us about plant soil feedback? Biology
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11. Holdrege, M.C*., Beard, K.A., Kulmatiski, A., Palmquist, K. Precipitation intensification increases shrub dominance in arid, not mesic ecosystems. Ecosystems.
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2022
12. Kulmatiski A., Beard K. A modern two-layer hypothesis helps resolve the ‘savanna problem’. Ecology Letters.
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13. Forero LE*, Kulmatiski A, Grenzer J*, Norton J. Plant-soil feedbacks help explain plant community productivity. Ecology.
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2021
14. Forero LE*, Kulmatiski A, Grenzer J*, Norton J. Plant-soil feedbacks help explain biodiversity-productivity relationships. Nature Communications Biology 4(1), 1-8.
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15. Grenzer J*, Kulmatiski A, Forero LE*, Ebeling A, Eisenhauer N, Norton J. Moderate plant-soil feedbacks have small effects on the biodiversity-productivity relationship: a field experiment. Ecology and Evolution 11(17), 11651-11663.
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16. Holdrege, M.C*, Beard, K.H. and Kulmatiski, A. Winter wheat resistant to increases in precipitation intensity. Agronomy 11(4), 751.
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17. Kulmatiski, A. and Forero, L.E. *, 2021. Bagging: a cheaper, faster, non-destructive transpiration water sampling method for tracer studies. Plant and Soil, 462(1), 603-611.
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18. Holdrege, M.C. *, Beard, K.H. and Kulmatiski, A., 2021. Woody plant growth increases with precipitation intensity in a cold semiarid system. Ecology, 102(1), p.e03212.
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19. Rasmussen, C.R. and Kulmatiski, A., 2021. Improving Inferences from Hydrological Isotope Techniques. Trends in Plant Science 26(3), 206-209.
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2020
20. Heinze, J. Kulmatiski A. Aboveground herbivory reverses plant-soil feedback effects. Ecology.
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21. Kulmatiski, A. Yu K., Mackay D.S., Staver, C., Parolari, A., Liu Y., Mahumder S., Trugman, A. Forecasting semi-arid biome shifts in the Anthropocene. New Phytologist, 226(2) 351-361.
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22. Kulmatiski, A., P.B. Adler, K.M. Foley. Even weak niche partitioning by active roots can explain plant coexistence. Journal of Ecology.
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23. Kulmatiski, A., Beard, K.H., Holdrege, M.C*. and February, E.C., 2020. Small differences in root distributions allow resource niche partitioning. Ecology and Evolution, 10(18), pp.9776-9787.
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2019
24. Forero, L*., Grenzer, J.*, Heinze J., Schittko C., Kulmatiski A. Greenhouse- and field-measured plant-soil feedbacks are not correlated. Frontiers in Ecology and Evolution.
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25. Kulmatiski, A., 2019. Plant-soil feedbacks predict native but not non-native plant community composition: a seven-year common-garden experiment. Frontiers in Ecology and Evolution, 7, p.326.
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26. Kulmatiski, A. and K.H. Beard. Chronosequence and direct observation data provide complementary perspective on community dynamics in a novel ecosystem. Plos One.
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2018
27. Koerner, S.E., M.D. Smith, Burkenpile, D.E., Avolio, M.L., Collins, S.L., Knapp, A.K., Lemoine, N.P., Forrestel, E.J., Eby, S., and The Grazing Exclosure Consortium (which includes A. Kulmatiski). Changes in dominance drive global variation in herbivore effects on grassland diversity. Nature Ecology & Evolution: 2 (12) 1925.
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28. Adler, P.B., Smull, D., Beard, K.H., Choi, R.T., Furniss, T., A. Kulmatiski, J. Meiners, A.T. Tredennick, K.E. Veblen. Competition and coexistence in plant communities: is intraspecific competition stronger than interspecific competition? Ecology Letters: 21 (9) 1319:1329.
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29. Henry A.L., M. Abedi, C.L. Alados, et al. 2018. Increased soil frost versus summer drought as drivers of plant biomass responses to reduced precipitation: results from a globally-coordinated field experiment. Ecosystems. doi.org/10.1007/s10021-018-0231-7
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30. Tobin R.L.* and A. Kulmatiski. 2018. Plant identity and shallow soil moisture are primary drivers of stomatal conductance: Results from a data-driven regional model. PLoS ONE. 10.1371/journal/pone.0191396.
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31. Kulmatiski, A. 2018. Community-level plant-soil feedbacks explain landscape distribution of native and non-native plants. Ecology and Evolution 8 (4) 2041-2049.
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32. Mariotte, P., M. Bezemer, G. DeDeyn, B. Drigo, M. van der Heijden, A. Kulmatiski, Z. Mehrabi, C. Veen, and P. Kardol. 2018. Plant-soil feedback: bridging natural and agricultural sciences. Trends in Ecology & Evolution 33 (2) 129-142.